Background
Šrobár, Fedor was born on April 5, 1940 in Bratislava, Czechoslovakia. Son of Vladimir and Dagmar (Schützová) Šrobár, grandson of the Slovak and Czechoslovak politician Vavro Šrobár.
biophysicist scientific worker
Šrobár, Fedor was born on April 5, 1940 in Bratislava, Czechoslovakia. Son of Vladimir and Dagmar (Schützová) Šrobár, grandson of the Slovak and Czechoslovak politician Vavro Šrobár.
Engineer in technical physics, Slovak Technology University, Bratislava, 1957-1963. Doctor of Philosophy in Applied Physics, Institute of Physics, Czechoslovak Academy of Sciences, 1974. Doctor of Sciences, Czech Technical University, 1995.
Researcher at the Research Institute for Telecommunications, Praha, Czech Republic, 1964-1968. Scientific worker at the Institute of Radio Engineering and Electronics, (renamed as Institute of Photonics and Electronics), Czech Academy of Sciences, Prague, since 1968, head of scientific council, 1995 - 2000. Visiting scientist at the Ioffe Institute of Technical Physics, St.Petersburg, 1969, and at the Southern Methodist University, Dallas, Texas, 1979-1980.
External faculty member at the Faculty of Mathematics and Physics, Charles University, Prague, 1986-1992.
Up to the year 1992, worked in the field of solid state physics: amorphous materials, III-V semiconductor compounds, optoelectronics, semiconductor injection lasers, optical bistability, mostly theoretical work. The last 20 years shift to biophysics - electromagnetic phenomena on the cellular level and gene transcription mechanisms, theoretical work.
Selected publications
1 F. Šrobár: “A Feynmanian approach to phenomenology of the current-voltage problem” Czech. J. Phys. B22 (1972) 1155-1167.
2 F. Šrobár: “Configuration entropy of ternary alloy superlattice” Cryst. Res. Technol. 16 (1981) 1173-1180.
3 F. Šrobár: “Free enthalpy of ternary alloy superlattice” Cryst. Res. Technol. 17 (1982) 943-949.
4 F. Šrobár: “Diffusion in semiconductor superlattices: decay of dopant concentration profiles” Czech. J. Phys. B33 (1983) 40-48.
F. Šrobár: “Morphogenetic aspects of the LPE heterostructure growth” Cryst. Res. Technol. 18 (1983) 321-328.
5 J. Novotný, F. Šrobár, F. Moravec, J. Zelinka: “Liquid phase epitaxial growth of (Ga,Al)As/GaAs double heterostructures under controlled As vapour pressure” J. Cryst. Growth 65 (1983) 596-601.
6 F. Šrobár: “Causal patterns underlying spinodal decomposition and related aspects of the metal passivation kinetics” Z. Phys. Chem. (Leipzig) 268 (1987) 993-1002.
7 F. Šrobár: “Analysis of absorptive bistability in two-sections semiconductor injection laser” phys. stat. sol. (b) 150 (1988) 581-585.
8 F. Šrobár: “Miscibility gaps in III-V alloys: an explanation” Cryst. Properties and Preparation 19, 20 (1989) 117-120.
9 J. Novotný, F. Šrobár: “Growth mechanism in thin AlGaAs and InGaAsP layers” Cryst. Properties and Preparation 19, 20 (1989) 137-140.
10 F. Šrobár: “Absorptive optical bistability: the case of Fabry-Perot” phys. stat. sol. (b) 159 (1990) 229-233.
11 F. Šrobár: “Phenomenological approach to identification of the optical feedback mechanism in the bistable Fabry-Perot etalon” Czech J. Phys. 41 (1991) 60-63.
12 F. Šrobár: “Feedback relationships – a neglected theme in physics” Eur. J. Phys. 13 (1992) 1-8.
13 F. Šrobár: “Feedback relationships and threshold current in semiconductor injection lasers: old problems revisited” Opt. Quantum Electron. 25 (1993) 27-35.
14 F. Šrobár: “Etiology of multistable states in the active Twyman-Green interferometer” Pure Appl. Optics 3 (1994) 87-90.
15 O. Procházková, F. Šrobár, J. Novotný: “On validity of a new definition of the threshod condition for injection lasers” Czech. J. Phys. 44 (1994) 843-850.
16 F. Šrobár, J. Pokorný: “Topology of mutual relationships implicit in the Froehlich model” Bioelectrochemistry and Bioenergetics 41 (1996) 31-33.
17 F. Šrobár, J. Pokorný: “Causal structure of the Froehlich model of cellular electromagnetic activity” Electro- and Magnetobiology 18 (1999) 257-268.
18 F. Šrobár: “A diagrammatic method for analysis of GaAs and InP based optoelectronic devices” Czech. J. Phys. 49 (1999) 783-789.
19 F. Šrobár: “Pattern of mutual relationships among parameters determining operation of laser diode amplifier” Proc. SPIE vol. 4016 Photonics, Devices, and Systems (2000). 292-297.
20 F. Šrobár: “Response of the oscillator systems resident in biological cells to changes in temperature” Proc. SPIE vol. 4710 (2002) 390-398.
21 F. Šrobár: “Dispersive optical bistability in unidirectional ring cavity” Proc. SPIE vol. 5036 (2003) 287-292.
22 F. Šrobár: “Feedback loops in the signal paths controlling gene expression” Bioelectrochemistry 63 (2004) 87-90.
23 F. Šrobár: „Fröhlich system with modulated access to pumping source“ Electromagnetic Biology and Medicine 24 (3) (2005) 265-272.
24 F. Šrobár: „Topology of feedback in the theory of molecular field“ Physica B – Condensed Matter 372 (2006) 21-24.
25 F. Šrobár, O. Procházková: „Simulation of the effects of rare earth elements presence in the growth of III-V compound layers“ Optoelectronics and advanced materials – Rapid Communications 1, No 10 (2007) 528-530.
26 F. Šrobár: „Synergy of feedback mechanisms in gene regulation systems with promoter and repressor transcription factors“ Centr. Eur. J. Phys. 6, No 1 (2008) 38-44.
27 F. Šrobár, O. Procházková: „Inversion of conductivity type of III-V compound layers in experiments with LPE growth from rare-earth containing melts“ Cryst. Res. Technol. 44 (2009) 597-602.
28 F. Šrobár: „Occupation-dependent access to metabolic energy in Fröhlich systems“ Electromagnetic Biology and Medicine 28 (2009) 194-200.
29 F. Šrobár: „Role of nonlinear interactions by the energy condensation in Fröhlich systems“ Neural Network World 19 (2009) 361-368.
30 F. Šrobár, O. Procházková: “Nonlinear properties of the dipole layer in MOS-based hydrogen detectors” Phys. Stat. Solidi C 9 (2012) 1687-1689.
31 F. Šrobár: „Fröhlich systems in cellular physiology” Prague Medical Report 113, (2012) 95-104.
32 F. Šrobár, O. Procházková: Negative feedback phenomena in InP-based hydrogen detectors” Optoel. Advanc. Materials – RP 6 (2012) 1089-1091.
33 F. Šrobár: “Impact of mitochondrial electric field on modal occupancy in the Fröhlich model of cellular electromagnetism” Electromagnetic Biol. Med. 32 (2013) 401-408.
34 F. Šrobár: “Radiating Fröhlich system as a model of cellular electromagnetism” Electromagnetic Biol. Med. 34, No 4, (2014) 355-360.
(Selected publications 1 F. Šrobár: “A Feynmanian appro...)
Contributor articles to professional journals.
Member Union of Czechoslovak Mathematics and Physicists, Czech and Slovak Photonics Society.
Married Vera (since 2014 Marie) Schumandlová, December 27, 1966.